new nuclotron beam intensity monitoring subsystem
DESCRIPTION
XXII International Symposium on Nuclear Electronics & Computing ____________________________________________________________. New Nuclotron Beam Intensity Monitoring Subsystem. V. Andreev, A. Butenko, A. Kirichenko, S. Romanov, G. Trubnikov, V. Volkov - PowerPoint PPT PresentationTRANSCRIPT
New Nuclotron Beam Intensity New Nuclotron Beam Intensity Monitoring SubsystemMonitoring Subsystem
V. Andreev, A. Butenko, A. Kirichenko, S. Romanov, G. Trubnikov, V. Volkov
Veksler and Baldin Laboratory of High Energy Physics, JINR, Dubna, Russia
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
AbstractAbstract
A new Nuclotron Beam Intensity Monitoring Subsystem (NBIMS) is based on a Parametric Current Transformer (manufacturer: BERGOZ instrumentation). It allows Nuclotron beam current and intensity monitoring correlated with the main magnetic field signal (sampling rate is 100 kSamples/s). Common structure, electronic equipment, software and first results of the Subsystem are described in this report.
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Nuclotron FacilityNuclotron Facility
The superconducting synchrotron Nuclotron is intended to accelerate nuclei and multicharged ions.
• Circumference 251.5 m
• Magnetic field up to 2 T
• Particle Energy up to 6 Gev/u
• 39 runs has been performed
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
The Nuclotron Control SystemThe Nuclotron Control System
• Two physical levels: Operator Control and Front End
• 17 geographically separated Subsystems
• Total number of points for meas. and control: ~ 3500
• Fast Ethernet LAN as the System common backbone
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
NBIMS structureNBIMS structure
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Parametric Current TransformerParametric Current Transformer
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
• Ranges from ±20mA to ±20A
• Frequency response: up to 10kHz
• Inducing protection
• Manufacturer: BERGOZ Instr.
Analogue Function GeneratorAnalogue Function Generator
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
• The 2-channels Counter is based on Altera EPN7128
• The 14-bits DAC is based on AD 760
• AFG works in 0…10V range
• 1 AFG bit corresponds to 0.1 Gs magnetic field value
• The Counter and the DAC are galvanic isolated
CyberResearch CMF 1622HRDA boardCyberResearch CMF 1622HRDA board
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
• Multifunction Analog I/O Board for PCI
• 16/8 inputs (Single Ended/Differential Mode)
• Up to 250 kHz sampling rate
• 16 bits resolution
• 8 MSamples Local Acquisition Memory
• Possibility of external triggering
NBIMS working cycleNBIMS working cycle
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Reproduction of beam intensityReproduction of beam intensity
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
))((
))0(()(
)(
)0()()(
tBf
BftkU
tf
ftkUtI
where U – voltage signal from the PCT, f – beam revolution frequency, B – main magnetic field, B(0) = Binj , k – constant of proportionality.
The NBIMS properly works in 108…1012 intensity range for proton and deuteron beams.
NBIMS softwareNBIMS software
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
The NBIMS software complex (developed for .NET Framework) consists of three parts:
• Server – equipment management, data acquisition and processing, data providing to client
• Client – remote viewing of data from the Server• Administrator – remote management of client
connections to the Server
NBIMS software: Data presentationNBIMS software: Data presentation
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
NBIMS software: Remote Data Viewing NBIMS software: Remote Data Viewing
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Remote viewing of the data is carried out by means of sockets technology via IP-network. Data transmission from the Server to multiple Clients is realized on “Publish-Subscribe” model. The Client sends to the Server a special request for subscription to NBIMS information. The Server either includes this Client to the “mailing list” or rejects the client request. After acquisition and processing of new data the Server dispatches it to all "subscribers”.
NBIMS software: the Client ModesNBIMS software: the Client Modes
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Extended Mode - the data with maximum time resolution is transferred from the Server. Sampling interval: 10 µs Data volume: ~ 10 MbytesIt is used for the machine precise tuning and investigations.
In the Simple Mode only 30 Kbytes of the data is transferred . It is sufficient for representation of an overall chart of the accelerator cycle.
First resultsFirst results
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
The NBIMS was successfully used during two last runs of the Nuclotron. The Subsystem has proved as a powerful tool for accelerator tuning. Also some important machine investigations such as two step acceleration mode experiment, testing of the adiabatic capture equipment and energy evacuation system were carried out with help of the NBIMS.
NBIMS in the Adiabatic Capture ExperimentNBIMS in the Adiabatic Capture Experiment
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
Future plansFuture plans
XXII International Symposium on Nuclear Electronics & Computing___________________________________________________________
_
• Interface improvement: separate signals scaling on amplitude
• Optimal increasing of the signals time resolution for the Client in the Simple mode
• Web-support for external users